Perturbations in a pelagic food web during the NE pacific large marine heatwave and persistent harmful diatom blooms

IF 5.5 1区 生物学 Q1 MARINE & FRESHWATER BIOLOGY
Rocio I. Ruiz-Cooley , Clarissa Anderson , Raphael Kudela , Robin Dunkin , John Field
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Abstract

Unprecedented warm ocean conditions, driven by the Large Marine Heatwave (LMH) and the 2015–16 El Niño in the Northeast Pacific favored pervasive toxigenic Pseudo-nitzschia spp. blooms that caused widespread ecological impacts, but little is known about the magnitude to which marine food webs were altered. Here, we assessed the trophic transfer of domoic acid (DA; a neurotoxin) and changes in trophic position from multiple key species during the peak of the LMH and El Niño in 2015 in comparison with 2018, a reference non-anomalous warm year. DA and amino acid nitrogen isotopes (δ15N AAs) were quantified using liquid and gas chromatography mass spectrometry, respectively. Our integrative approach revealed extremely high levels of DA in anchovy viscera (>3000 μg/g) with contrasting baseline values (δ15N Phe) for southern California fish. These results together with data from northern CA revealed an unforeseen latitudinal isotopic variation in key DA vectors along California, possibly driven by anomalous restructuring of water masses. At the regional level, the observed cross-shore differences in baseline isotope values and DA toxicity suggest distinct pathways for DA trophic transfer for nearshore vs. offshore sites. Given the high levels of environmental disturbance during the LMH and persistence of toxigenic P. australis blooms, our resultant higher trophic position proxies in 2015 compared to 2018 were particularly unexpected. Such results highlight complex trophic interactions, where the trophic status of some species increased while others decreased in response to changes in net primary productivity, and biodiversity, and abundance of forage species. Our study demonstrates the use of δ15N AAs to identify pathways of N and DA trophic transfer and to quantify shifts in animal trophic position, a critical facet of understanding the response of food webs to climate change and DA production.
东北太平洋大型海洋热浪和持续有害硅藻藻华期间浮游食物网的扰动
在大型海洋热浪(LMH)和 2015-16 年厄尔尼诺现象的推动下,东北太平洋出现了前所未有的温暖海洋条件,这有利于造成广泛生态影响的毒性伪尼氏藻属水华,但人们对海洋食物网的改变程度知之甚少。在此,我们评估了多莫酸(DA,一种神经毒素)的营养传递情况,以及在2015年LMH和厄尔尼诺高峰期与2018年(参考非反常温暖年)相比,多个关键物种营养位置的变化情况。利用液相和气相色谱质谱法分别对DA和氨基酸氮同位素(δ15N AAs)进行了定量。我们的综合方法揭示了凤尾鱼内脏中极高的 DA 含量(>3000 μg/g),与南加州鱼类的基准值(δ15N Phe)形成鲜明对比。这些结果与加利福尼亚州北部的数据共同揭示了加利福尼亚州沿岸主要DA载体的纬度同位素变化,这种变化可能是由异常的水团结构调整引起的。在区域层面上,观察到的基线同位素值和 DA 毒性的跨岸差异表明,近岸与离岸地点的 DA 营养转移途径不同。考虑到 LMH 期间的高水平环境干扰和毒素型 P. australis 水华的持续存在,我们在 2015 年得出的营养位置代用指标高于 2018 年,这尤其出乎意料。这些结果凸显了复杂的营养相互作用,其中一些物种的营养状况随着净初级生产力、生物多样性和饲料物种丰度的变化而增加,而另一些物种的营养状况则随着净初级生产力、生物多样性和饲料物种丰度的变化而降低。我们的研究表明,可以利用δ15N AAs来确定氮和DA营养转移的途径,并量化动物营养位置的变化,这是了解食物网对气候变化和DA生产响应的一个重要方面。
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来源期刊
Harmful Algae
Harmful Algae 生物-海洋与淡水生物学
CiteScore
12.50
自引率
15.20%
发文量
122
审稿时长
7.5 months
期刊介绍: This journal provides a forum to promote knowledge of harmful microalgae and macroalgae, including cyanobacteria, as well as monitoring, management and control of these organisms.
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